| Daemonization |
| ------------- |
| |
| There's a helper api lws_daemonize built by default that does everything you |
| need to daemonize well, including creating a lock file. If you're making |
| what's basically a daemon, just call this early in your init to fork to a |
| headless background process and exit the starting process. |
| |
| Notice stdout, stderr, stdin are all redirected to /dev/null to enforce your |
| daemon is headless, so you'll need to sort out alternative logging, by, eg, |
| syslog. |
| |
| |
| Maximum number of connections |
| ----------------------------- |
| |
| The maximum number of connections the library can deal with is decided when |
| it starts by querying the OS to find out how many file descriptors it is |
| allowed to open (1024 on Fedora for example). It then allocates arrays that |
| allow up to that many connections, minus whatever other file descriptors are |
| in use by the user code. |
| |
| If you want to restrict that allocation, or increase it, you can use ulimit or |
| similar to change the avaiable number of file descriptors, and when restarted |
| libwebsockets will adapt accordingly. |
| |
| |
| Libwebsockets is singlethreaded |
| ------------------------------- |
| |
| Directly performing websocket actions from other threads is not allowed. |
| Aside from the internal data being inconsistent in forked() processes, |
| the scope of a wsi (struct websocket) can end at any time during service |
| with the socket closing and the wsi freed. |
| |
| Websocket write activities should only take place in the |
| "LWS_CALLBACK_SERVER_WRITEABLE" callback as described below. |
| |
| Only live connections appear in the user callbacks, so this removes any |
| possibility of trying to used closed and freed wsis. |
| |
| If you need to service other socket or file descriptors as well as the |
| websocket ones, you can combine them together with the websocket ones |
| in one poll loop, see "External Polling Loop support" below, and |
| still do it all in one thread / process context. |
| |
| |
| Only send data when socket writeable |
| ------------------------------------ |
| |
| You should only send data on a websocket connection from the user callback |
| "LWS_CALLBACK_SERVER_WRITEABLE" (or "LWS_CALLBACK_CLIENT_WRITEABLE" for |
| clients). |
| |
| If you want to send something, do not just send it but request a callback |
| when the socket is writeable using |
| |
| - libwebsocket_callback_on_writable(context, wsi) for a specific wsi, or |
| - libwebsocket_callback_on_writable_all_protocol(protocol) for all connections |
| using that protocol to get a callback when next writeable. |
| |
| Usually you will get called back immediately next time around the service |
| loop, but if your peer is slow or temporarily inactive the callback will be |
| delayed accordingly. Generating what to write and sending it should be done |
| in the ...WRITEABLE callback. |
| |
| See the test server code for an example of how to do this. |
| |
| |
| Fragmented messages |
| ------------------- |
| |
| To support fragmented messages you need to check for the final |
| frame of a message with libwebsocket_is_final_fragment. This |
| check can be combined with libwebsockets_remaining_packet_payload |
| to gather the whole contents of a message, eg: |
| |
| case LWS_CALLBACK_RECEIVE: |
| { |
| Client * const client = (Client *)user; |
| const size_t remaining = libwebsockets_remaining_packet_payload(wsi); |
| |
| if (!remaining && libwebsocket_is_final_fragment(wsi)) { |
| if (client->HasFragments()) { |
| client->AppendMessageFragment(in, len, 0); |
| in = (void *)client->GetMessage(); |
| len = client->GetMessageLength(); |
| } |
| |
| client->ProcessMessage((char *)in, len, wsi); |
| client->ResetMessage(); |
| } else |
| client->AppendMessageFragment(in, len, remaining); |
| } |
| break; |
| |
| The test app llibwebsockets-test-fraggle sources also show how to |
| deal with fragmented messages. |
| |
| |
| Debug Logging |
| ------------- |
| |
| Also using lws_set_log_level api you may provide a custom callback to actually |
| emit the log string. By default, this points to an internal emit function |
| that sends to stderr. Setting it to NULL leaves it as it is instead. |
| |
| A helper function lwsl_emit_syslog() is exported from the library to simplify |
| logging to syslog. You still need to use setlogmask, openlog and closelog |
| in your user code. |
| |
| The logging apis are made available for user code. |
| |
| lwsl_err(...) |
| lwsl_warn(...) |
| lwsl_notice(...) |
| lwsl_info(...) |
| lwsl_debug(...) |
| |
| The difference between notice and info is that notice will be logged by default |
| whereas info is ignored by default. |
| |
| |
| External Polling Loop support |
| ----------------------------- |
| |
| libwebsockets maintains an internal poll() array for all of its |
| sockets, but you can instead integrate the sockets into an |
| external polling array. That's needed if libwebsockets will |
| cooperate with an existing poll array maintained by another |
| server. |
| |
| Four callbacks LWS_CALLBACK_ADD_POLL_FD, LWS_CALLBACK_DEL_POLL_FD, |
| LWS_CALLBACK_SET_MODE_POLL_FD and LWS_CALLBACK_CLEAR_MODE_POLL_FD |
| appear in the callback for protocol 0 and allow interface code to |
| manage socket descriptors in other poll loops. |
| |
| |
| Using with in c++ apps |
| ---------------------- |
| |
| The library is ready for use by C++ apps. You can get started quickly by |
| copying the test server |
| |
| $ cp test-server/test-server.c test.cpp |
| |
| and building it in C++ like this |
| |
| $ g++ -DINSTALL_DATADIR=\"/usr/share\" -ocpptest test.cpp -lwebsockets |
| |
| INSTALL_DATADIR is only needed because the test server uses it as shipped, if |
| you remove the references to it in your app you don't need to define it on |
| the g++ line either. |
| |
| |
| Availability of header information |
| ---------------------------------- |
| |
| From v1.2 of the library onwards, the HTTP header content is free()d as soon |
| as the websocket connection is established. For websocket servers, you can |
| copy interesting headers by handling LWS_CALLBACK_FILTER_PROTOCOL_CONNECTION |
| callback, for clients there's a new callback just for this purpose |
| LWS_CALLBACK_CLIENT_FILTER_PRE_ESTABLISH. |
| |
| |
| TCP Keepalive |
| ------------- |
| |
| It is possible for a connection which is not being used to send to die |
| silently somewhere between the peer and the side not sending. In this case |
| by default TCP will just not report anything and you will never get any more |
| incoming data or sign the link is dead until you try to send. |
| |
| To deal with getting a notification of that situation, you can choose to |
| enable TCP keepalives on all libwebsockets sockets, when you create the |
| context. |
| |
| To enable keepalive, set the ka_time member of the context creation parameter |
| struct to a nonzero value (in seconds) at context creation time. You should |
| also fill ka_probes and ka_interval in that case. |
| |
| With keepalive enabled, the TCP layer will send control packets that should |
| stimulate a response from the peer without affecting link traffic. If the |
| response is not coming, the socket will announce an error at poll() forcing |
| a close. |
| |
| Note that BSDs don't support keepalive time / probes / inteveral per-socket |
| like Linux does. On those systems you can enable keepalive by a nonzero |
| value in ka_time, but the systemwide kernel settings for the time / probes/ |
| interval are used, regardless of what nonzero value is in ka_time. |